Abstract
Graphene Oxide (GO) based low cost flexible electronics and memory cell have recently attracted more attention for the fabrication of emerging electronic devices. As a suitable candidate for resistive random access memory technology, reduced graphene oxide (RGO) can be widely used for non-volatile switching memory applications because of its large surface area, excellent scalability, retention, and endurance properties. We demonstrated that the fabricated metal/RGO/metal memory device exhibited excellent switching characteristics, with on/off ratio of two orders of magnitude and operated threshold switching voltage of less than 1 V. The studies on different cell diameter, thickness, scan voltages and period of time corroborate the reliability of the device as resistive random access memory. The microscopic origin of switching operation is governed by the establishment of conducting filaments due to the interface amorphous layer rupturing and the movement of oxygen in the GO layer. This interesting experimental finding indicates that device made up of thermally reduced GO shows more reliability for its use in next generation electronics devices.
Highlights
Graphene Oxide (GO) based low cost flexible electronics and memory cell have recently attracted more attention for the fabrication of emerging electronic devices
Chemically removing oxygen ions from graphene oxide (GO) changes to a high resistive state (HRS), which is a primary concern for the device degradation[3]
This paper reports the detail study based on the structural, optical and resistive switching characteristics of thermally reduced GO and the electrode dependence switching property of small power consuming GO memory cell and their reliability as resistive random access memory
Summary
Graphene Oxide (GO) based low cost flexible electronics and memory cell have recently attracted more attention for the fabrication of emerging electronic devices. ; the physical mechanism behind the resistive switching behavior in thermally reduced graphene oxide (RGO) has not been studied in detail for exploiting this material to its full extent.
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